The present invention relates to bird feeders and more particularly, relates to improvements in a tube type bird feeder.
Tube type bird feeders are well known in the art. They basically comprise a seed retaining container of a tubular configuration which is usually transparent in nature. A base seals the bottom while a cover is provided. The cover can be removed so as to provide access to the seed container for filling of the same. Normally, one or more perches are provided proximate the one or more seed access openings in the seed container.
Most tube bird feeders are designed to be as inexpensive as possible. They are conventionally manufactured in a manner so as to not encourage disassembly of the same. However, in so doing, this can cause problems. One of the problems associated with all types of bird feeders is cleanliness. Unless a proper design is provided, the seed will, over a period of time, become mouldy. It is also subject to contamination by bird droppings. Without proper care, this can lead to illness among the bird population using the feeder.
A further problem associated with tube bird feeders pertains to ventilation of the seed retaining container. Due to the nature of bird feeders, most are exposed to weather and as a consequence, moisture frequently reaches the inside of the seed retaining container. This can cause problems for the seeds which remain therein as mold is a persistent problem.
It is an object of the present invention to provide an improved tube type bird feeder wherein the components of the bird feeder can easily be disassembled and assembled.
It is a further object of the present invention to provide for ventilation of the tube type bird feeder.
According to one aspect of the invention, there is a provided a bird feeder comprising a seed tube having a side wall, at least one feed opening in the side wall, the side wall having a top marginal edge and a bottom marginal edge, a cover removably engaged with the seed tube proximate the top marginal edge, at least one perch mounted on the seed tube proximate the feed opening, and a base member removably secured to the seed tube adjacent the bottom marginal edge.
A traditional tube bird feeder comprises a hollow tube having feed access openings therein. Perches are usually at least one rod which passes through the tube and extends outwardly. They are secured in position by mechanical means. A base prevents the seed from exiting and it is also usually secured in place by mechanical fasteners. The cover arrangement will again usually comprise a wire member which will engage with the hollow tube either directly or indirectly. The cover slides on the wire member and access to the tube is gained by tilting the wire member to the side while the cover is elevated.
The conventional tube bird feeder is not easily disassembled and tools are usually required. The bird feeder of the instant invention overcomes many of the disadvantages of the known tube bird feeder and can be assembled and disassembled without the use of tools.
In greater detail, the bird feeder of the present invention may utilize a conventional seed tube with an open top and an open bottom. Conventionally, the seed tubes are formed of a plastic material and are transparent although other materials can be utilized.
The seed tube is provided with at least one feed access opening and in a preferred embodiment, has two seed access openings which are diametrically opposed. Each seed access opening preferably has a perch mounted proximate thereto to enable a bird to perch while feeding.
The bird feeder will also have a cover which is designed to seal the open top end. The cover is preferably removable and retained such that access may be had to the interior of the tube for filling of the same. Most covers utilized for tube feeders are held in a non rotatable manner. In a preferred embodiment, the bail holding the bird feeder through the cover is mounted such that the bird feeder can rotate about the bail.
The base member is removably secured to the seed tube adjacent a bottom marginal edge of the tube. In a preferred embodiment, the base member has a protrusion which will engage with an aperture formed in the seed tube proximate the aforementioned bottom marginal edge.
The base member is preferably formed of an upper base portion and a lower base portion. They are retained together in a non rotatable manner. The upper base portion will include a pair of half walls defining the top thereof and upon which the seed in the seed tube will be supported. Preferably the two half walls have apertures therein to permit drainage and ventilation.
The locking of the base member to the seed tube by the protrusion can rely on the flexibility of the seed tube or alternatively, the base member may be designed to have a certain flexibility. The protrusion is such that the seed tube can fit within and be slidable thereover due to the shape of the front or face wall of the protrusion as will be described in greater detail hereinbelow.
The cover is releasably secured directly to the tube. The cover will include at least one protrusion which will engage with an aperture formed in the seed tube proximate an upper marginal edge of the seed tube. Due to the shape of the protrusion, as will be described hereinbelow, removal of the cover is easily achieved while it is securely attached to the seed tube during normal use.
The cover will include ventilation apertures formed therein, the ventilation apertures being formed in a manner that rain and the like cannot easily access the ventilation apertures.
Having thus generally described the invention, reference will be made to the accompanying drawings illustrating an embodiment thereof, in which:
Referring to the drawings in greater detail and by reference characters thereto, there is illustrated a bird feeder which is generally designated by reference numeral 10.
Bird feeder 10 comprises four different components—a cover generally designated by reference numeral 12, a seed container generally designated by reference numeral 14, a base structure generally designated by reference numeral 16, and a perch structure generally designated by reference numeral 18.
Cover 12 is formed with a domed top wall 22 and a downwardly extending cylindrical side wall 24. It will be noted that cylindrical side wall 24 is spaced inwardly of domed top wall 22. Domed top wall 22 terminates with an outer downwardly extending flange 26.
Domed top wall 22 is also provided with upwardly extending protrusions 28 which have spaces 34 therebetween. Located centrally of domed top wall 22 is a central aperture 30. Venting apertures 32 are provided proximate central aperture 30. On the inner surface of domed top wall 22, there is provided a plurality of downwardly extending tabs 31.
A bail generally designated by reference numeral 36 includes an inverted U-shaped portion 38 for hanging from a hook or the like. A leg 40 extends downwardly; leg 40 has an expanded end 42 which provides a seating wall or ledge 44. The arrangement is such that leg 40 passes through central aperture 30 and seating wall 44 engages with tabs 31 to retain the bail secured to the cover. Bail 36 also includes a horizontal wall 37 which engages with upwardly extending protrusions 28 such that spaces 34 provide air communication with venting apertures 32 to thereby permit air exchange between seed container 14 and the exterior
The inner surface of cylindrical side wall 24 includes a pair of protrusions 46 each having a front face 48 which tapers upwardly and outwardly from the point where it merges with the surface of side wall 24. At its upper portion, there is provided a top wall 50 for engaging seed container 14 as will be discussed in greater detail hereinbelow.
Seed container 14 is defined by a tubular side wall 54 which is preferably formed of a transparent flexible plastic material. A pair of seed access openings 56 and 58 are provided and preferably they are diametrically opposed for aesthetic reasons. A first set of upper apertures 60, 62 are provided near the top marginal edge of tubular side wall 54 while a second pair of upper apertures 64, 66 are spaced therefrom and a little bit lower. Proximate the lower marginal edge, there are provided diametrically opposed lower apertures 68, 70.
Base structure 16 includes a seed support wall 74 upon which the seed rests and is directed outwardly proximate seed openings 56, 58. Drainage apertures 76 are provided in wall 74.
Base structure 16 also includes an upper side wall 78 and a lower side wall 80. Extending between the top of lower side wall 80 and the base of upper side wall 78 is a horizontal wall section 81. It will be noted that upper side wall 78 includes a pair of tab members 82, 84 which provide some flexibility to that portion of upper side wall 78. Mounted on the inner surface of tabs 82, 84 are protrusions 86. Each protrusion 86 has a tapering front wall 88 for reasons which will become apparent hereinbelow. Tapering front wall 88 terminates in a bottom wall 89 which forms a stop for engaging with seed container 14 as will be discussed in greater detail hereinbelow.
As may be seen in
At its lower end, base structure 16 is provided with a center wall 90 which defines a recess 92 for receiving a post which supports the bird feeder. Located within recess 92 is a circular structure 94. This arrangement is such that recess 92 can accommodate either of the commonly sized poles. Thus, a larger post will be retained by center wall 90. Alternatively, a smaller post may have a size such that it will fit about circular structure 94.
The bird feeder preferably includes a perch structure as shown. As may be best seen in
For assembly, perch structure 18 is initially set in place by inserting the baffle portion to the interior whereby protrusions 108 will fit through recesses 104. The perch structure 18 is then rotated to its proper position.
To assemble the structure, base structure 16 and the bottom of seed tube 14 may be assembled such that the bottom of side wall 54 is inserted interiorly of upper side wall 78. The tapering front wall 88 permits the side wall to enter and seat on stoppers 100. A rotational movement can be given until protrusions 86 seat in lower apertures 68, 70. The base 16 is retained on seed tube 14 due to engagement with bottom wall 89.
It will be noted that the bottom of plate portion 110 is sized such that upper side wall 78 seats thereagainst.
Cover 12 may then be placed in position with protrusions 46 on cylindrical side wall 24 seating within upper apertures 60, 62.
The bird feeder 10 is provided with ventilation extending from the bottom up through the seed container with the upper ventilation being accomplished with apertures 64, 66 and the venting through venting apertures 32.
It will be understood that the above described embodiments are for purposes of illustration only and that changes and modifications may be made thereto without departing from the spirit and scope of the invention.